import __builtin__ import sys __all__ = ['enumerate', 'nonRepeatingRandomList', 'describeException', 'pdir', 'choice'] if not hasattr(__builtin__, 'enumerate'): def enumerate(L): """Returns (0, L[0]), (1, L[1]), etc., allowing this syntax: for i, item in enumerate(L): ... enumerate is a built-in feature in Python 2.3, which implements it using an iterator. For now, we can use this quick & dirty implementation that returns a list of tuples that is completely constructed every time enumerate() is called. """ return zip(xrange(len(L)), L) __builtin__.enumerate = enumerate else: enumerate = __builtin__.enumerate def nonRepeatingRandomList(vals, max): random.seed(time.time()) #first generate a set of random values valueList=range(max) finalVals=[] for i in range(vals): index=int(random.random()*len(valueList)) finalVals.append(valueList[index]) valueList.remove(valueList[index]) return finalVals # class 'decorator' that records the stack at the time of creation # be careful with this, it creates a StackTrace, and that can take a # lot of CPU def recordCreationStack(cls): if not hasattr(cls, '__init__'): raise 'recordCreationStack: class \'%s\' must define __init__' % cls.__name__ cls.__moved_init__ = cls.__init__ def __recordCreationStack_init__(self, *args, **kArgs): self._creationStackTrace = StackTrace(start=1) return self.__moved_init__(*args, **kArgs) def getCreationStackTrace(self): return self._creationStackTrace def getCreationStackTraceCompactStr(self): return self._creationStackTrace.compact() def printCreationStackTrace(self): print self._creationStackTrace cls.__init__ = __recordCreationStack_init__ cls.getCreationStackTrace = getCreationStackTrace cls.getCreationStackTraceCompactStr = getCreationStackTraceCompactStr cls.printCreationStackTrace = printCreationStackTrace return cls # __dev__ is not defined at import time, call this after it's defined def recordFunctorCreationStacks(): global Functor from pandac.PandaModules import getConfigShowbase config = getConfigShowbase() # off by default, very slow if __dev__ and config.GetBool('record-functor-creation-stacks', 0): if not hasattr(Functor, '_functorCreationStacksRecorded'): Functor = recordCreationStackStr(Functor) Functor._functorCreationStacksRecorded = True Functor.__call__ = Functor._exceptionLoggedCreationStack__call__ def describeException(backTrace = 4): # When called in an exception handler, returns a string describing # the current exception. def byteOffsetToLineno(code, byte): # Returns the source line number corresponding to the given byte # offset into the indicated Python code module. import array lnotab = array.array('B', code.co_lnotab) line = code.co_firstlineno for i in range(0, len(lnotab), 2): byte -= lnotab[i] if byte <= 0: return line line += lnotab[i+1] return line infoArr = sys.exc_info() exception = infoArr[0] exceptionName = getattr(exception, '__name__', None) extraInfo = infoArr[1] trace = infoArr[2] stack = [] while trace.tb_next: # We need to call byteOffsetToLineno to determine the true # line number at which the exception occurred, even though we # have both trace.tb_lineno and frame.f_lineno, which return # the correct line number only in non-optimized mode. frame = trace.tb_frame module = frame.f_globals.get('__name__', None) lineno = byteOffsetToLineno(frame.f_code, frame.f_lasti) stack.append("%s:%s, " % (module, lineno)) trace = trace.tb_next frame = trace.tb_frame module = frame.f_globals.get('__name__', None) lineno = byteOffsetToLineno(frame.f_code, frame.f_lasti) stack.append("%s:%s, " % (module, lineno)) description = "" for i in range(len(stack) - 1, max(len(stack) - backTrace, 0) - 1, -1): description += stack[i] description += "%s: %s" % (exceptionName, extraInfo) return description def pdir(obj, str = None, width = None, fTruncate = 1, lineWidth = 75, wantPrivate = 0): # Remove redundant class entries uniqueLineage = [] for l in getClassLineage(obj): if type(l) == types.ClassType: if l in uniqueLineage: break uniqueLineage.append(l) # Pretty print out directory info uniqueLineage.reverse() for obj in uniqueLineage: _pdir(obj, str, width, fTruncate, lineWidth, wantPrivate) print def choice(condition, ifTrue, ifFalse): # equivalent of C++ (condition ? ifTrue : ifFalse) if condition: return ifTrue else: return ifFalse def quantize(value, divisor): # returns new value that is multiple of (1. / divisor) return float(int(value * int(divisor))) / int(divisor) def quantizeVec(vec, divisor): # in-place vec[0] = quantize(vec[0], divisor) vec[1] = quantize(vec[1], divisor) vec[2] = quantize(vec[2], divisor) def isClient(): if hasattr(__builtin__, 'simbase') and not hasattr(__builtin__, 'base'): return False return True __builtin__.pdir = pdir __builtin__.isClient = isClient __builtin__.choice = choice